BY MARC ANTHONY GARDNER !!!!!!Linear MotionDerivation- Solving Linear Motion Equations
Acceleration is the change of velocity with time ratio - and can be expressed as
a = dv / dt (1) where a = acceleration (m/s2, ft/s2) dv = v1 - v0 = change in velocity (m/s, ft/s) dt = t1 - t0 = time taken to change the velocity (s)
by: Abdul Khan Pd # 2
Marc Anthony Gardner
October 10, 2009
Pd.6
The Four Most Important Equations Of Linear Motion
1.V f=Vi + at
2. D= ½ (Vf + Vi)t
3. D= ViT + 1/2at (Squared 2)
4. Vf(Squared 2)=Vi(Squared 2) + 2ad
So with the equations given to us above lets try some examples !
A car traveling at 10.0m/s accelerates a rate of 2.5m/s(squared to 2) to final velocity of 20m/s. How long does it take for this to occur?
A plane must reach a speed of 100m/s at take off. It takes 10 seconds to get down the runway, how long does the runway have to be?
Upon lift off, a rocket ship accelerates at a rate of 1m/s? How fast is it traveling when it reaches a height of 10,000m?
Acceleration is the change of velocity with time ratio - and can be expressed as
a = dv / dt (1)
where
a = acceleration (m/s2, ft/s2)
dv = v1 - v0 = change in velocity (m/s, ft/s)
dt = t1 - t0 = time taken to change the velocity (s)
Linear Motion.pptx Linear Motion Power Point (Nahdir Austin)
Page: Kaylah BAylor
Rachael Jefferson
Period 2
10/08/09
Here's a powerpoint I created to make the notes look really cool.